Contrasting response of European forest and grassland energy exchange to heatwaves

Adriaan J. Teuling; Sonia I. Seneviratne; Reto Stöckli; Markus Reichstein; Eddy Moors; Philippe Ciais; Sebastiaan Luyssaert; Bart Van Den Hurk; Christof Ammann; Christian Bernhofer; Ebba Dellwik; Damiano Gianelle; Bert Gielen; Thomas Grünwald; Katja Klumpp; Leonardo Montagnani; Christine Moureaux; Matteo Sottocornola; Georg Wohlfahrt

doi:10.1038/ngeo950

Contrasting response of European forest and grassland energy exchange to heatwaves

Adriaan J. Teuling, Sonia I. Seneviratne, Reto Stöckli, Markus Reichstein, Eddy Moors, Philippe Ciais, Sebastiaan Luyssaert, Bart Van Den Hurk, Christof Ammann, Christian Bernhofer, Ebba Dellwik, Damiano Gianelle, Bert Gielen, Thomas Grünwald, Katja Klumpp, Leonardo Montagnani, Christine Moureaux, Matteo Sottocornola, Georg Wohlfahrt

Earth and Climate

Research output: Contribution to Journal › Article › Academic › peer-review

Abstract

Recent European heatwaves have raised interest in the impact of land cover conditions on temperature extremes. At present, it is believed that such extremes are enhanced by stronger surface heating of the atmosphere, when soil moisture content is below average. However, the impact of land cover on the exchange of water and energy and the interaction of this exchange with the soil water balance during heatwaves is largely unknown. Here we analyse observations from an extensive network of flux towers in Europe that reveal a difference between the temporal responses of forest and grassland ecosystems during heatwaves. We find that initially, surface heating is twice as high over forest than over grassland. Over grass, heating is suppressed by increased evaporation in response to increased solar radiation and temperature. Ultimately, however, this process accelerates soil moisture depletion and induces a critical shift in the regional climate system that leads to increased heating. We propose that this mechanism may explain the extreme temperatures in August 2003. We conclude that the conservative water use of forest contributes to increased temperatures in the short term, but mitigates the impact of the most extreme heat and/or long-lasting events.

Original language	English
Pages (from-to)	722-727
Number of pages	6
Journal	Nature Geoscience
Volume	3
Issue number	10
DOIs	https://doi.org/10.1038/ngeo950
Publication status	Published - Oct 2010

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Teuling, A. J., Seneviratne, S. I., Stöckli, R., Reichstein, M., Moors, E., Ciais, P., Luyssaert, S., Van Den Hurk, B., Ammann, C., Bernhofer, C., Dellwik, E., Gianelle, D., Gielen, B., Grünwald, T., Klumpp, K., Montagnani, L., Moureaux, C., Sottocornola, M., & Wohlfahrt, G. (2010). Contrasting response of European forest and grassland energy exchange to heatwaves. Nature Geoscience, 3(10), 722-727. https://doi.org/10.1038/ngeo950

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title = "Contrasting response of European forest and grassland energy exchange to heatwaves",

abstract = "Recent European heatwaves have raised interest in the impact of land cover conditions on temperature extremes. At present, it is believed that such extremes are enhanced by stronger surface heating of the atmosphere, when soil moisture content is below average. However, the impact of land cover on the exchange of water and energy and the interaction of this exchange with the soil water balance during heatwaves is largely unknown. Here we analyse observations from an extensive network of flux towers in Europe that reveal a difference between the temporal responses of forest and grassland ecosystems during heatwaves. We find that initially, surface heating is twice as high over forest than over grassland. Over grass, heating is suppressed by increased evaporation in response to increased solar radiation and temperature. Ultimately, however, this process accelerates soil moisture depletion and induces a critical shift in the regional climate system that leads to increased heating. We propose that this mechanism may explain the extreme temperatures in August 2003. We conclude that the conservative water use of forest contributes to increased temperatures in the short term, but mitigates the impact of the most extreme heat and/or long-lasting events.",

author = "Teuling, {Adriaan J.} and Seneviratne, {Sonia I.} and Reto St{\"o}ckli and Markus Reichstein and Eddy Moors and Philippe Ciais and Sebastiaan Luyssaert and {Van Den Hurk}, Bart and Christof Ammann and Christian Bernhofer and Ebba Dellwik and Damiano Gianelle and Bert Gielen and Thomas Gr{\"u}nwald and Katja Klumpp and Leonardo Montagnani and Christine Moureaux and Matteo Sottocornola and Georg Wohlfahrt",

year = "2010",

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doi = "10.1038/ngeo950",

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Teuling, AJ, Seneviratne, SI, Stöckli, R, Reichstein, M, Moors, E, Ciais, P, Luyssaert, S , Van Den Hurk, B, Ammann, C, Bernhofer, C, Dellwik, E, Gianelle, D, Gielen, B, Grünwald, T, Klumpp, K, Montagnani, L, Moureaux, C, Sottocornola, M & Wohlfahrt, G 2010, 'Contrasting response of European forest and grassland energy exchange to heatwaves', Nature Geoscience, vol. 3, no. 10, pp. 722-727. https://doi.org/10.1038/ngeo950

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AU - Teuling, Adriaan J.

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AU - Moors, Eddy

AU - Ciais, Philippe

AU - Luyssaert, Sebastiaan

AU - Van Den Hurk, Bart

AU - Ammann, Christof

AU - Bernhofer, Christian

AU - Dellwik, Ebba

AU - Gianelle, Damiano

AU - Gielen, Bert

AU - Grünwald, Thomas

AU - Klumpp, Katja

AU - Montagnani, Leonardo

AU - Moureaux, Christine

AU - Sottocornola, Matteo

AU - Wohlfahrt, Georg

PY - 2010/10

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N2 - Recent European heatwaves have raised interest in the impact of land cover conditions on temperature extremes. At present, it is believed that such extremes are enhanced by stronger surface heating of the atmosphere, when soil moisture content is below average. However, the impact of land cover on the exchange of water and energy and the interaction of this exchange with the soil water balance during heatwaves is largely unknown. Here we analyse observations from an extensive network of flux towers in Europe that reveal a difference between the temporal responses of forest and grassland ecosystems during heatwaves. We find that initially, surface heating is twice as high over forest than over grassland. Over grass, heating is suppressed by increased evaporation in response to increased solar radiation and temperature. Ultimately, however, this process accelerates soil moisture depletion and induces a critical shift in the regional climate system that leads to increased heating. We propose that this mechanism may explain the extreme temperatures in August 2003. We conclude that the conservative water use of forest contributes to increased temperatures in the short term, but mitigates the impact of the most extreme heat and/or long-lasting events.

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Contrasting response of European forest and grassland energy exchange to heatwaves

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